DK160163B - FLOW MEASURES WHERE A FLUIDUMS OSCILLATIONS IS DETECTED - Google Patents

FLOW MEASURES WHERE A FLUIDUMS OSCILLATIONS IS DETECTED Download PDF

Info

Publication number
DK160163B
DK160163B DK146087A DK146087A DK160163B DK 160163 B DK160163 B DK 160163B DK 146087 A DK146087 A DK 146087A DK 146087 A DK146087 A DK 146087A DK 160163 B DK160163 B DK 160163B
Authority
DK
Denmark
Prior art keywords
flow
flow meter
housing
fluid
sheath
Prior art date
Application number
DK146087A
Other languages
Danish (da)
Other versions
DK146087D0 (en
DK160163C (en
DK146087A (en
Inventor
Niels Due Jensen
Kurt Frank Nielsen
Bent Larsen
Original Assignee
Grundfos Int
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Grundfos Int filed Critical Grundfos Int
Publication of DK146087D0 publication Critical patent/DK146087D0/en
Publication of DK146087A publication Critical patent/DK146087A/en
Publication of DK160163B publication Critical patent/DK160163B/en
Application granted granted Critical
Publication of DK160163C publication Critical patent/DK160163C/en

Links

Classifications

    • GPHYSICS
    • G01MEASURING; TESTING
    • G01FMEASURING VOLUME, VOLUME FLOW, MASS FLOW OR LIQUID LEVEL; METERING BY VOLUME
    • G01F1/00Measuring the volume flow or mass flow of fluid or fluent solid material wherein the fluid passes through a meter in a continuous flow
    • G01F1/05Measuring the volume flow or mass flow of fluid or fluent solid material wherein the fluid passes through a meter in a continuous flow by using mechanical effects
    • G01F1/20Measuring the volume flow or mass flow of fluid or fluent solid material wherein the fluid passes through a meter in a continuous flow by using mechanical effects by detection of dynamic effects of the flow
    • G01F1/32Measuring the volume flow or mass flow of fluid or fluent solid material wherein the fluid passes through a meter in a continuous flow by using mechanical effects by detection of dynamic effects of the flow using swirl flowmeters
    • G01F1/3227Measuring the volume flow or mass flow of fluid or fluent solid material wherein the fluid passes through a meter in a continuous flow by using mechanical effects by detection of dynamic effects of the flow using swirl flowmeters using fluidic oscillators
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T137/00Fluid handling
    • Y10T137/206Flow affected by fluid contact, energy field or coanda effect [e.g., pure fluid device or system]
    • Y10T137/2224Structure of body of device

Landscapes

  • Physics & Mathematics (AREA)
  • Fluid Mechanics (AREA)
  • General Physics & Mathematics (AREA)
  • Measuring Volume Flow (AREA)

Description

iin

DK 160163 BDK 160163 B

Opfindelsen angår en strømningsmåler, hvor et fluidums oscillationer detekteres, og soni består af et hus, i hvilket der findes et fluidumførende strømningssystem med rum og kanaler, og hvor systemets indløbsåbning og udløbsåbning hver er for-5 bundet med en tilslutningsstuds for indbygning af strømnings-måleren, og hvor der i strømningssysternet frembringes en oscillerende fluidumstråle, hvis frekvens i det tilvejebragte måleområde i hvert fald er tilnærmelsesvis proportional med fluidets strømningshastighed og måles med en måleindretning 10 med henblik på ved hjælp af en regneenhed at bestemme fluidets volumenstrøm.BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to a flow meter in which a fluid oscillation is detected, and is comprised of a housing in which there is a fluid-conducting flow system having compartments and ducts, and wherein the inlet opening and outlet opening of the system are each connected to a connection plug for integrating flow. the oscillating fluid jet, the frequency of which in the provided measurement range is at least proportional to the flow rate of the fluid and is measured with a measuring device 10 for determining the volume flow of the fluid by means of a calculator.

Blandt de direkte og indirekte virkende volumenstrømsmålere, indtager strømningsmålere med oscillerende fluidum en sær-15 stilling, fordi de kan udformes uden brug af nogen bevægelige dele og derfor almindeligvis får lang levetid. Desuden kan sådanne strømn ingsmå1ere arbejde med stor nøjagtighed, inden for et forholdsvis stort måleområde.Among the direct and indirectly acting volume flow meters, flow meters with oscillating fluid occupy a special position because they can be designed without the use of any moving parts and therefore generally have a long life. In addition, such flow meters can work with great accuracy, within a relatively large measuring range.

20 Arbejdsmåden af de her nævnte strømningsmålere er baseret på en i ét plan oscillerende strømni ngskraf t, som har en kompo- ' nent vinkelret på fluidumstrømningen og derved bevirker periodiske retningsændringer af denne. En sådan arbejdsmåde ses hos strømningssystemer, som f.eks. beror på Coandar-effekten eller 25 på andre i og for sig kendte effekter. En væske- eller gasstråle, som fra et udløb med skarpe kanter træder ind i et kammer, der har større tværsnit samt strømn ingsspli torgan, er i nstabil. Den frie stråle vil asymmetrisk medrive fluidumpartikler fra et af hjørnerne af kammeret eller fra det sted, 30 hvor der sker en springvis tværsnitsudvidelse, så at der dér frembringes et undertryk, og fluidumstrålen samme steds bøjes ud til siden.The operation of the flow meters mentioned herein is based on a single plane oscillating flow force t which has a component perpendicular to the fluid flow and thereby causes periodic directional changes thereof. Such a mode of operation is seen in flow systems, e.g. depends on the Coandar effect or 25 on other effects known per se. A liquid or gas jet which, from a sharp-edged outlet, enters a chamber having a larger cross-section as well as flow splitter, is stable. The free jet will asymmetrically entrain fluid particles from one of the corners of the chamber or from the site of a bifurcated cross-sectional expansion to produce a negative pressure there and the fluid jet at the same location bends to the side.

I den som ringkanal udformede tilbageføringsledning opstår der 35 nu en sådan bevægelse af fluidet, som bevirker en strømningskraft, og som tvinger den udbøjede f1ui dummassestråle over i en anden strømningsretning, idet strålen passerer en midter-In the feedback channel designed as a ring channel, such a movement of the fluid, which causes a flow force, forces the forced bent dummy beam into another flow direction as the beam passes through a central flow.

DK 160163BDK 160163B

2 !2!

JJ

i position. På denne måde opstår der en oscillerende flu i dum-stråle, hvis frekvens inden::for bestemte grænser er proportional med fluidets strømningshastighed, hvorved man, når man har målt frekvensen, også kan få et mål for volumenstrømmen.in position. In this way, an oscillating flux in the dum-beam is produced, the frequency of which, for certain limits, is proportional to the flow rate of the fluid, whereby, when measuring the frequency, a measure of the volume flow can also be obtained.

5 I5 I

Selv om de på markedet forekommende strømningsmålere af fornævnte art er meget simpelt opbyggede, har de dog visse ulemper, fordi de er fremstillet af et metal, såsom støbejern eller bronze, og formgivet ved spåntagende bearbejdning. Dette 10 materiale må modstå korrosion, erosion og slitage fra fluidet, ligesom det må danne en tryktæt væg mellem strømningsmåleren og dennes omgivelser. Disse problemer fører uden videre til kompromiser, hvis strømningsmåleren ønskes fremstillet af et enkelt materiale. Hertil kommer, at spåntagende bearbejdning 15 medfører forholdsvis høje produktionsomkostninger.However, although the flow meters of the aforementioned kind are very simply constructed, they have certain disadvantages because they are made of a metal, such as cast iron or bronze, and shaped by machining. This material must withstand corrosion, erosion and wear from the fluid, as well as form a pressure-tight wall between the flow meter and its surroundings. These problems will inevitably lead to compromises if the flow meter is to be made of a single material. In addition, machining 15 results in relatively high production costs.

Der kendes også strømningsmålere af førnævnte art - jf. f.eks. de, der kendes fra SE-fr'emlæggelsesskrift nr. 408094 - hvor de rum og kanaler i strømningssystemet, som leder fluidet frem, 20 er udformet i et hus, der, idet det delvis er af plast, er fremstillet ved sprøjtestøbning, og ved hvilket et hen mod en bredside af huset åbent hulrum i strømningssystemet må aftætnes over for omgivelserne. Det gør man på den måde, at vedkommende åbne side i huset dækkes med en metalplade, medens der 25 på den anden bredside af huset, som er lukket, er anbragt en med tilslutningsstuds forsynet støbt del, hvor de på hver side af huset værende metaldele så er forbundet med hinanden ved hjælp af skruer, og huset spændt fast mellem metaldelene.Flow meters of the aforementioned kind are also known - cf. those known from SE Patent Laid-Open No. 408094 - wherein the spaces and ducts of the fluid flow-forwarding system 20 are formed in a housing which, being partially plastic, is made by injection molding, and by a cavity open to a wide side of the housing in the flow system must be sealed to the surroundings. This is done in such a way that the open side of the housing is covered with a metal plate, while on the other wide side of the housing, which is closed, a molded part with a connecting rod is provided, with the metal parts on each side of the housing. then are connected to each other by means of screws and the housing clamped between the metal parts.

30 Med hensyn til kvaliteten af overfladen af et delvis af plast bestående strømningssystem har den svenske strømningsmåler visse fordele, men også ulemper, fordi det for dens strømningssystem, hvor kanaler og rum sædvanligvis har i hovedsagen rektangulært tværsnit, gælder, at kun den nederste væg og de 35 to sidevægge har glatte plastoverflader, mens den øvre væg kun er strømningsteknisk god, når indersiden af den dækkende metalplade er tilstrækkeligt bearbejdet.30 As regards the quality of the surface of a partially plastic flow system, the Swedish flow meter has certain advantages, but also disadvantages, because for its flow system, where ducts and compartments usually have a generally rectangular cross-section, only the bottom wall and the two two side walls have smooth plastic surfaces, while the upper wall is only flow technically good when the inside of the covering metal plate is sufficiently machined.

DK 160163 BDK 160163 B

33

Hertil kommer, at der ved strømningsmålere som den svenske, selv når man anvender yderligere tætningsmidler, vil opstå tætningsproblemer, når fluidet har højt tryk og høj tempera-t ur. Desuden er disse strømni ngsmålere forholdsvis tunge og 5 giver store materiale og fremstillingsomkostninger.In addition, flow meters such as the Swedish, even when additional sealants are used, will cause sealing problems when the fluid has high pressure and high temperature clock. In addition, these flow meters are relatively heavy and 5 provide large material and manufacturing costs.

t .t.

Det er formålet med opfindelsen at anvise en strømn ingsmå1 er af den indledningsvis nævnte art, som kan præstere stor måle-nøjagtighed, og som er enkel og billig af konstruktion, og som 10 ikke medfører nogen tætningsproblemer.SUMMARY OF THE INVENTION It is an object of the invention to provide a flow measurement of the kind mentioned above which can provide high measurement accuracy and which is simple and inexpensive in construction and which does not cause any sealing problems.

Strømningsmåleren ifølge opfindelsen er ejendommelig ved, at hele huset er af plast og lukket hen til indløbsåbningen og udløbsåbningen, og at huset på alle sider er omgivet af en 15 tryktæt kappe, og at kappen bærer de to tilslutningsstudse. Herved opnås at strømningssystemets kanaler og rum alle steder udviser glatte overflader, der er modstandsdygtige o ver for korrosion. Tætningsproblémer af den tidligere nævnte art falder bort, fordi huset er lukket og kun må have de sædvanlige 20 to åbninger, som står i forbindelse med kappens tilslutnings-studse .The flow meter according to the invention is characterized in that the entire housing is of plastic and closed to the inlet opening and the outlet opening, and that the housing is surrounded on all sides by a pressure-tight jacket and that the jacket carries the two connection nozzles. This ensures that the channels and compartments of the flow system at all times exhibit smooth surfaces that are resistant to corrosion. Sealing problems of the aforementioned kind fade away because the housing is closed and must have only the usual two openings which are connected to the sheath socket.

Ifølge opfindelsen kan kappen hensigtsmæssigt være af rustfri stålplade og bestå af to tryktæt, fortrinsvis ved svejsning 25 forbundne dele, på hvilke de to studse er påbygget.According to the invention, the casing may conveniently be of stainless steel plate and consist of two pressure seals, preferably by welded parts 25 on which the two studs are mounted.

Desuden kan der mellem kappen og huset findes et rum, som på et sted står i forbindelse med en af husets strømningskanal er, hvorhos kappen danner en tryktæt grænse mod omgivelserne. Der-30 ved opnås, at huset kun bliver belastet med et til tryktabet i strømningsmåleren svarende tryk, og derfor kan gøres forholdsvis tyndvægget.In addition, there may be a space between the casing and the housing, which at one point is connected to one of the casing flow ducts, where the casing forms a pressure-tight boundary with the surroundings. It is thus achieved that the housing is only loaded with a pressure corresponding to the pressure loss in the flow meter, and therefore can be made relatively thin-walled.

Hvis det fluidum, hvorpå der skal måles, indeholder tilsæt-35 ninger, der bevirker slitage, kan ifølge opfindelsen de truede dele af strømningssystemet være af metal eller keramisk materiale og være udformet som en af en eller flere dele bestående indsats, som er indsat i det iøvrigt af plast fremstillede hus.If the fluid to be measured contains additives that cause wear, according to the invention, the threatened parts of the flow system may be of metal or ceramic material and be formed as one or more parts consisting of inserts. otherwise the plastic-made housing.

44

DK 160163BDK 160163B

De uheldige egenskaber ved husets materiale, nemlig for plasten et ugunstigt krybeforhcrld og for keramiken manglende bøjningsstyrke og stor sprødhed, er der kompenseret for ved, at huset står under et tryk, som er mindre end måleudstyrets 5 tryktab, der selv kun er en brøkdel af systemtrykket. Desuden befinder de to tilslutningsstudse sig ved kappen, så at de kræfter, som indvirker på strømningsmåleren via de tilsluttede rørledninger, ikke kan påvirke strømningssystemet mekanisk til tryk, træk eller bøjning.The unfortunate properties of the material of the housing, namely for the plastic an unfavorable creep condition and for the ceramic lack of bending strength and high brittleness, are compensated for by the housing being under a pressure which is less than the pressure loss of the measuring equipment 5, which itself is only a fraction of the system pressure. In addition, the two connection nozzles are located at the casing so that the forces acting on the flow meter via the connected pipelines cannot mechanically influence the flow system for pressure, tension or bending.

1010

Ifølge opfindelsen kan strømningssystemet have en ringformet tilbageføringskanal, som forløber efter en krum rumkurve. Derved opnås, at de to tilslutningsstudse kan anbringes langs en fælles akse, så at strømningsmåleren kan indbygges inline. 15 Desuden kan strømningsmålerens byggehøjde reduceres.According to the invention, the flow system may have an annular feedback channel extending along a curved space curve. This ensures that the two connecting pins can be placed along a common axis, so that the flow meter can be built inline. 15 Furthermore, the flow meter's building height can be reduced.

Fremdeles kan ifølge opfindelsen en del af kappen være således udformet, at den danner et frit, udefra tilgængeligt og aflukkeligt rum. Dette rum har den fordel, at det kan give plads 20 for en regneenhed., dele af en frekvensindretning samt batterier m. m.Still, according to the invention, a portion of the sheath may be designed to form a free, accessible and externally enclosed space. This space has the advantage that it can provide space 20 for a calculator, parts of a frequency device and batteries etc.

Endvidere kan det ifølge opfindelsen være fordelagtigt, at kappedelene er rotationssymmetrisk udformede, hvorhos deres 25 midterlinie og midterlinien for tilslutningsstudsene kan skære hinanden under en vinkel på ca. 90°.Furthermore, according to the invention, it may be advantageous for the sheath portions to be rotationally symmetrically formed, whereby their centerline and the centerline of the connecting studs can intersect at an angle of approx. 90 °.

Endelig kan det ifølge opfindelsen være hensigtsmæssigt, såfremt midterlinien for de rotationssymmetriske kappedele og 30 midterlinien for tilslutningsstudsene er sammenfaldende.Finally, according to the invention, it may be convenient if the center line of the rotationally symmetrical cutting portions and the center line of the connecting studs are coincident.

Strømningsmåleren kan, når den kombineres med en temperatur-di fferens-måleindretning og udvides med en regneenhed, danne en "varmemåler" af den art, som i dag er foreskrevet i udlej-35 ningsbyggeri i forskellige lande.The flow meter, when combined with a temperature differential measurement device and expanded with a calculator, can form a "heat meter" of the kind currently prescribed in rental construction in various countries.

Opfindelsen forklares nedenfor under henvisning til tegningen, hvorThe invention is explained below with reference to the drawing, in which

DK 160163 BDK 160163 B

5 fig. 1 viser et længdesnit gennem en udførelsesform for strømningsmåleren Ifølge opfindelsen, fig. 2 den nederste del af et af to dele opbygget hus i strøm-5 ningsmåleren, set fra siden, fig. 3 et hus svarende til fig. 2, idet der findes en indsats af keramik eller metal, 10 fig. 4 et længdesnit gennem en anden udførelsesform for strøm-n i ngsmå1eren, fig. 5 en strømningsmåler med rotationssymmetri sk kappe, set i snit, og 15 fig, 6 en anden udformning af en strømningsmål er med rotationssymmetrisk kappe.5 FIG. 1 is a longitudinal section through an embodiment of the flow meter according to the invention; FIG. 2 is a side view of the lower part of a housing constructed in two parts of the flow meter; FIG. 3 shows a housing similar to FIG. 2, with an insert made of ceramic or metal; FIG. 4 is a longitudinal section through another embodiment of the flow meter; FIG. 5 is a sectional view of a flow meter with rotationally symmetrical sheath, and FIG. 6 is a further embodiment of a flow meter having a rotationally symmetrical sheath.

Den i figurerne viste strømningsmåler kan f.eks. monteres, så 20 at den kan tjene som vandmå ler. Den i fig. 1 viste strømn i ngs-måler består af en ydre kappe af eksempelvis rustfrit stål eller ikke-metal1isk materiale. Denne kappe er sammensat af et dæksel 1 og en hertil svarende formpresset del 2. Delene 1 og 2 er f.eks. føjet sammen ved svejsning ved dækslets random-25 råde. Andre sammenføjningsmidler kan komme på tale, f.eks. klæbning.The flow meter shown in the figures can e.g. mounted so that it can serve as a water clay. The FIG. 1 flow in ngs meter consists of an outer sheath of, for example, stainless steel or non-metallic material. This jacket is composed of a cover 1 and a correspondingly molded part 2. The parts 1 and 2 are e.g. joined together by welding at the cover's random-25 wires. Other joining means may be discussed, e.g. adhesion.

På kappedelen 2 er der anbragt to tilslutningsstudse 3 og 4, ved hjælp af hvilke strømningsmåleren kan indbygges i en rør-30 ledning i et vandførende anlæg, såsom et varmeanlæg. Tilslutningsstudsene 3 og 4 ligger i fig. 1 på samme akse 5, hvorved strømningsmåleren bliver særlig egnet til inline-indbygning.Two connection nozzles 3 and 4 are arranged on the cover part 2, by means of which the flow meter can be built into a pipe line in a water-carrying system, such as a heating system. The connecting studs 3 and 4 are shown in FIG. 1 on the same axis 5, whereby the flow meter becomes particularly suitable for inline installation.

Kappen 1, 2 omslutter på alle sider det af to dele 6 og 7 be-35 stående plasthus, som indeholder strømningskanaler og kamre, der senere skal omtales mere detaljeret. De to dele 6 og 7 er tæt forbundet med hinanden ved en skilleflade 6a, 7a og er vedThe casing 1, 2 encloses on all sides the plastic housing of two parts 6 and 7, which contains flow ducts and chambers, which will be discussed in more detail later. The two parts 6 and 7 are closely connected to one another at a separating surface 6a, 7a and are adjacent

DK 160163 BDK 160163 B

6 mindst én af studsene 3, 4 tætnet i forhold til den nedre kappe 1, 2. I den i fig. l"‘viste udførelsesform er tætningen tilvejebragt ved hjælp af en O-ring 8 ved indløbsstudsen 3, så at et mellem kappen og huset værende rum la kun står i forbin-5 delse med en tilgrænsende strømningskanal i huset på et ikke-tætnet sted i nærheden af tilløbsstudsen 4. Kappen danner en tryktæt grænse mellem strømningsmåleren og omgivelserne. Denne udformning er fordelagtig, da huset 6, 7's vægge kun bliver belastet med et til tryktabet i strømningsmåleren svarende 10 tryk og derfor kan gøres forholdsvis tynde.6, at least one of the studs 3, 4 is sealed relative to the lower sheath 1, 2. In the embodiment shown in FIG. In the embodiment shown, the seal is provided by an O-ring 8 at the inlet nozzle 3 so that a space 1a between the sheath and the housing is only in contact with an adjacent flow channel in the housing at an unsealed location in the housing. proximity of the inlet port 4. The sheath forms a pressure-tight boundary between the flow meter and the surrounding environment, which is advantageous since the walls of the housing 6, 7 are only loaded with a pressure corresponding to the pressure loss in the flow meter and can therefore be made relatively thin.

Der består også den mulighed, at strømningskanalerne i huset 6, 7 kan tætnes fuldstændigt i forhold til kappen 1, 2, idet man tilvejebringer en yderligere tætning i området ved udløbs-15 studsen 4, hvilken tætning vil fungere mellem huset og kappen, ligesom O-ringen 8. En sådan løsning er god ved måling af gasstrømme ved lille overtryk. løvrigt er det i dette tilfælde ikke nødvendigt, at kappen 1, 2 danner den trykbestandige grænse over for omgivelserne. Kappen be-høver kun at være så-20 ledes udformet, at den kan opfange de udefra virkende kræfter og på sikker måde spænde det indsatte hus fast. Ved denne konstruktion må man passe på, at huset 6, 7's vægge er tilsva rende stabile, da de står under det fulde systemtryk.There is also the possibility that the flow channels in the housing 6, 7 can be completely sealed with respect to the sheath 1, 2, providing an additional seal in the region of the outlet socket 4, which sealing will function between the housing and the sheath, as well as 0. ring 8. Such a solution is good for measuring gas flows at low overpressure. in this case, it is not necessary for the sheaths 1, 2 to form the pressure-resistant limit to the surroundings. The sheath only needs to be so designed that it can capture the outside forces and securely clamp the inserted housing. In this construction, care must be taken that the walls of the housing 6, 7 are substantially stable as they are under the full system pressure.

25 Fluidet løber ind i strømningsmåleren gennem studsen 3 og når derefter frem til et indløbskammer 9, se fig. 2. Det løber så gennem en udløbsåbning 10, som en stråle og ind i et kammer 11, hvis tværsnit gradvis udvider sig. Dette kammer danner en del af en tilbageføringskanal 12. Når fluidumstrålen er nået 30 ind i kammeret 11, vil den enten strømme gennem en kanal 13 eller en kanal 14, idet den løber omkring et splitorgan 15 og videre til udløbsstudsen 4. Afhængigt af fluidumstrålens position dannes der i kammeret 11 en trykdifferens, som forårsager en bevægelse i fluidet i tilbageføringskanalen 12 og får 35 strålen til at slå om til sin anden position, så at fluidum-strålen på grund af de instabile forhold vil oscillere.The fluid enters the flow meter through the connector 3 and then reaches an inlet chamber 9, see FIG. 2. It then passes through an outlet opening 10, such as a jet, and into a chamber 11 whose cross-section gradually expands. This chamber forms part of a return channel 12. When the fluid jet has reached 30 into the chamber 11, it will either flow through a channel 13 or channel 14 as it runs around a splice member 15 and on to the outlet nozzle 4. Depending on the position of the fluid jet. a pressure differential is formed in the chamber 11 which causes a movement of the fluid in the return channel 12 and causes the jet to switch to its second position so that the fluid jet will oscillate due to the unstable conditions.

DK 160163 BDK 160163 B

77

Som nævnt kan man ved direkte eller indirekte måling af fluidumstrålens svingningsfrekvens ved hjælp af den viste indretning måle fluidumstrålens volumenstrøm. Dette kan f.eks. ske ved hjælp af en termosonde eller ved hjælp af det princip, som 5 er nævnt i det førnævnte svenske fremlæggelsessskri ft, idet s .As mentioned, by the direct or indirect measurement of the oscillation frequency of the fluid jet, by means of the device shown, the volume flow of the fluid jet can be measured. This can be done, for example. be done by means of a thermal probe or by the principle mentioned in 5 of the aforementioned Swedish presentation script, s.

der i tilbageføringskanalen 12 anbringes en metalkugle 16, som under indvirkning af fluidet er begrænset indstillelig mellem to anslag 17. Bevægelsesretningen og bevægelsesfrekvensen for denne kugle afhænger af den til enhver tid gældende strøm-10 ningsretning for fluidet, og fluidets strømningsretningsæn dringer i tilbageføringskanalen. Ved hjælp af en ikke-vist føler kan man så udefra aftaste kuglens bevægelse elektromagnetisk og dermed direkte bestemme svingningsfrekvensen for fluidumstrålen og således efter tilsvarende omregning finde 15 volumenstrømmen.in the return channel 12, a metal ball 16 is placed which, under the action of the fluid, is confined between two stops 17. By means of a sensor not shown, one can then electromagnetically detect the movement of the ball from the outside and thus directly determine the frequency of oscillation of the fluid jet and thus, after corresponding conversion, find the volume flow.

Den i fig. 1 og 2 viste strømningsmåler er først og fremmest tænkt til brug i forbindelse med et fluidum uden tilsætning af slitagefremkaldende tilsætninger. En egnet løsning for fluida 20 med slitage-fremkaldende tilsætninger er skematisk vist i fig.The FIG. 1 and 2 are primarily intended for use in connection with a fluid without the addition of wear-causing additives. A suitable solution for fluid 20 with wear-inducing additions is schematically shown in FIG.

3. Her er de dele af strømningssystemet, som påvirker målenøj-agtigheden, og som er truet af slitage udført i keramik eller passende materiale. En keram i kb 1 ok 18, hvis rektangulære kontur er vist stiplet, og hvori der blandt andet befinder sig en 25 del af kammeret 9, udløbsåbningen 10, kammeret 11, kanalerne 13 og 14 samt splitorganet 15, er indsat i en modsvarende udsparing i husdelen 7 og fikseret i sin position. Keramikblokken 18 kan fremstilles som en af flere dele bestående indsats, såfremt det er fremstillingsmæssigt fordelagtigt, eller så-30 fremt man herved får en simplere montage.3. Here are the parts of the flow system which affect the measurement accuracy and which are threatened by wear made of ceramic or suitable material. A ceramic in kb 1 ok 18, the rectangular contour of which is shown dotted, and containing, inter alia, a portion of the chamber 9, the outlet opening 10, the chamber 11, the ducts 13 and 14 and the splitting means 15, is inserted into a corresponding recess in the housing portion 7 and fixed in its position. The ceramic block 18 can be made as one of several parts, if it is advantageously manufacturing, or if a simpler assembly is obtained.

En keramikblok 18, som består af en eller flere dele, kommer især i betragtning, hvis fluidet er vand indeholdende slidfremkaldende tilsætninger, medens en blok af metal, f.eks.Particularly, a ceramic block 18 consisting of one or more parts is considered if the fluid is water containing wear-causing additives, while a metal block, e.g.

35 aluminium, vil være velegnet, såfremt det fluidum, der skal måles på, er en gas.35 aluminum will be suitable if the fluid to be measured is a gas.

88

DK 160163 BDK 160163 B

Som det fremgår af fig. 1 og 2, forløber strømningssystemets ringformede ti Ibageføringsk'ånal 12 efter en nedad krummet rumkurve, så at den på tegningen viste højre del af tilbageføringskanalen ligger neden under aksen 5, og man nu har den 5 mulighed at lade de to tilslutningsstudse 3 og 4 ligge på en fælles akse, så at indbygning efter i niine-princippet kan realiseres. Desuden opnås der ved denne løsning en tilsvarende ringe byggehøjde.As shown in FIG. 1 and 2, the annular ten of the flow system extends through the return channel 12 following a downwardly curved space curve so that the right portion of the return channel shown in the drawing is below the axis 5, and it is now possible to leave the two connection nozzles 3 and 4 on a common axis so that incorporation according to the niine principle can be realized. In addition, this solution achieves a correspondingly low building height.

10 I fig. 4 ses en strømningsmåler, hvor strømningssystemet befinder sig i ét plan, og studsene 3, 4 er anbragt enten på den fælles akse 5 eller også vinkelret på hinanden. I sidstnævnte tilfælde vil f.eks. studsen 3 bortfalde og erstattes af den med stiplet linie viste studs 3a.10 In FIG. 4 shows a flow meter where the flow system is in one plane and the studs 3, 4 are placed either on the common axis 5 or also perpendicular to each other. In the latter case, e.g. the connector 3 lapses and is replaced by the dotted line studs 3a.

1515

Ved begge de i fig. 1-4 viste udførelsesformer kan der øverst tilvejebringes et frit rum 19 ved hjælp af passende formgivning af kappedelene 1 eller 2, hvilket rum er tilgængeligt udefra og kan lukkes af i forhold til omgivelserne ved hjælp 20 af et ikke-vist dæksel. I dette rum kan en regneenhed, dele af en frekvens indretni ngen samt batterier m.m. være anbragt.In both of FIG. 1-4, a free space 19 can be provided at the top by appropriately shaping the sheath portions 1 or 2, which space is accessible from the outside and can be closed to the surroundings by means of a cover (not shown). In this room a calculator, parts of a frequency device and batteries, etc. be placed.

I fig. 5 ses en yderligere udførelsesform for en strømningsmåler. I dette tilfælde består den i snit viste kappe af to 25 rotationssymmetriske dele 1 og 2. Det af to plastdele 6 og 7 opbyggede hus indeholder det strømningssystem, som ovenfor er bsempel. Det nævnte strømningssystem er endnu engang vist for forståelsens skyld. Huset 6, 7 er ved indløbsstudsen 3 tætnet i forhold til kappedelen 2 ved hjælp af O-ringen 8, så at den 30 totale fluidumstrøm må passere gennem strømningssystemet.In FIG. 5 shows a further embodiment of a flow meter. In this case, the sheath shown in section consists of two rotationally symmetrical parts 1 and 2. The housing constructed of two plastic parts 6 and 7 contains the flow system as exemplified above. The said flow system is shown once again for the sake of understanding. The housing 6, 7 is sealed at the inlet port 3 relative to the sheath portion 2 by means of the O-ring 8, so that the total fluid flow must pass through the flow system.

I denne udføre!sesform skærer den gennem studsene 3, 4 gående akse 5 og kappedelens akse 21 hinanden under en nogenlunde ret vinkel. Ved hjælp af et kappedæksel 22, som er forbundet med 35 kappedelen 21 ved hjælp af skruer 23, tilvejebringes det tidligere nævnte, udefra tilgængelige rum 19, som tjener til optagelse af elektronik og en regneenhed.In this embodiment, it cuts through the axis 5, 5, of the studs 3, and the axis 21 of the cutting member 21 at each other at a fairly right angle. By means of a cap cover 22, which is connected to the cap portion 21 by means of screws 23, the aforementioned, externally accessible space 19 is provided which serves for recording electronics and a calculator.

Claims (8)

1. Strømningsmåler, hvor et fluidums oscillationer detekte-res, og som består af et hus, i hvilket der findes et fluidumførende strømningssystem med rum og kanaler, og hvor systemets indløbsåbning og udløbsåbning hver er forbundet med en ti 1 — 25 slutningsstuds for indbygning af strømningsmåleren, og hvor der i strømningssystemet frembringes en oscillerende fluidumstråle, hvis frekvens i det tilvejebragte måleområde i hvert fald er tilnærmelsesvis proportional med fluidets strømningshastighed og måles med en måleindretning med henblik på ved 30 hjælp af en regneenhed at bestemme fluidets volumenstrøm, kendetegnet ved, at hele huset (6, 7) er af plast og er lukket hen til indløbsåbningen og udløbsåbningen, og at huset på alle sider er omgivet af en tryktæt kappe (1, 2), og at kappen bærer de to tilslutningsstudse (3, 4). 35A flow meter, in which a fluid oscillation is detected, consisting of a housing in which there is a fluid-carrying flow system with compartments and channels, and wherein the inlet opening and outlet opening of the system are each connected to a ten 1 to 25 end plug for incorporating the flow meter, and wherein in the flow system an oscillating fluid jet is produced, the frequency of which in the provided measurement range is at least approximately proportional to the flow rate of the fluid and is measured with a measuring device to determine, by means of a calculator, the volume flow of the fluid, the entire housing (6, 7) is made of plastic and is closed to the inlet opening and the outlet opening, and that the housing is surrounded on all sides by a pressure-tight sheath (1, 2) and that the sheath carries the two connecting studs (3, 4). 35 2. Strømningsmå ler ifølge krav 1, k e n d e t e g n e t ved, at kappen er af rustfri stålplade og består af to tryktæt, DK 160163 B fortrinsvis ved svejsning forbundne dele (1, 2), på hvilke de to studse (3, 4) er påbyggeif.Flow meter according to claim 1, characterized in that the sheath is of stainless steel plate and consists of two pressure seals, preferably by welded parts (1, 2), on which the two studs (3, 4) are mounted. 3. Strømningsmåler ifølge krav 1 eller 2, kendeteg-5 net ved, at der mellem kappen (1, 2) og huset (6, 7) findes et rum (la) som på et sted står i forbindelse med en af husets strømningskanaler (9-14), og at kappen danner en tryktæt grænse mod omgivelserne.Flow meter according to claim 1 or 2, characterized in that between the casing (1, 2) and the housing (6, 7) there is a space (1a) which at one point communicates with one of the housing flow channels (1). 9-14) and that the jacket forms a pressure-tight boundary with the surroundings. 4. Strømningsmåler ifølge krav 1, 2 eller 3, kende tegnet ved, at dele af strømningssystemet er af metal eller keramisk materiale og er udformet som en af en eller flere dele bestående indsats (18), som er indsat i det iøvrigt af plast fremstillede hus (6, 7). 15Flow meter according to claim 1, 2 or 3, characterized in that parts of the flow system are of metal or ceramic material and are formed as one or more parts (18), which are inserted into the otherwise made of plastic. housing (6, 7). 15 5. Strømningsmåler ifølge et eller flere af kravene 1-4, kendetegnet ved, at strømningssystemet (9-15) har en ringformet tilbageføringskanal (12), som forløber efter en krum rumkurve. 20Flow meter according to one or more of claims 1-4, characterized in that the flow system (9-15) has an annular feedback channel (12) which extends according to a curved space curve. 20 6. Strømningsmåler ifølge et eller flere af kravene 1-5, kendetegnet ved, at en del af kappen (1, 2) er således udformet, at den danner et frit, udefra tilgængeligt og aflukkeligt rum (19). 25Flow meter according to one or more of claims 1 to 5, characterized in that a part of the sheath (1, 2) is designed to form a free, externally accessible and closable space (19). 25 7. Strømningsmåler ifølge et eller flere af kravene 1-6, kendetegnet ved, at kappedelene (1, 2) er rotationssymmetrisk udformede, og at deres midterlinie og midterlinien (5) for tilslutningsstudsene (3, 4) skærer hinanden un- 30 der en vinkel på ca. 90°.Flow meter according to one or more of claims 1 to 6, characterized in that the sheath portions (1, 2) are rotationally symmetrically shaped and that their center line and the center line (5) of the connecting studs (3, 4) intersect one another. angle of approx. 90 °. 8. Strømningsmåler ifølge et eller flere af kravene 1-6, kendetegnet ved, at midterlinien (21) for de rotationssymmetriske kappedele (l, 2) og midterlinien (5) for 35 tilslutningsstudsene (3, 4) er sammenfaldende.Flow meter according to one or more of claims 1-6, characterized in that the center line (21) of the rotationally symmetrical cutting parts (1, 2) and the center line (5) of the connecting pins (3, 4) are coincident.
DK146087A 1986-03-22 1987-03-20 FLOW MEASURES WHERE A FLUIDUMS OSCILLATIONS IS DETECTED DK160163C (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE19863609748 DE3609748A1 (en) 1986-03-22 1986-03-22 VIBRATION BEAM METER
DE3609748 1986-03-22

Publications (4)

Publication Number Publication Date
DK146087D0 DK146087D0 (en) 1987-03-20
DK146087A DK146087A (en) 1987-09-23
DK160163B true DK160163B (en) 1991-02-04
DK160163C DK160163C (en) 1991-07-01

Family

ID=6297047

Family Applications (1)

Application Number Title Priority Date Filing Date
DK146087A DK160163C (en) 1986-03-22 1987-03-20 FLOW MEASURES WHERE A FLUIDUMS OSCILLATIONS IS DETECTED

Country Status (6)

Country Link
US (1) US4827777A (en)
JP (1) JPS62277523A (en)
DE (1) DE3609748A1 (en)
DK (1) DK160163C (en)
FR (1) FR2596149B1 (en)
GB (1) GB2188151B (en)

Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE10119342C2 (en) * 2001-04-20 2003-07-31 Hydrometer Gmbh liquid meter
JP4895194B2 (en) * 2006-12-19 2012-03-14 愛知時計電機株式会社 Water meter system
US7992453B1 (en) * 2011-01-14 2011-08-09 Cameron International Corporation Erosion-resistant insert for flow measurement devices

Family Cites Families (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2045621A7 (en) * 1969-06-10 1971-03-05 Corning Glass Works Fluidic oscillator
GB1400831A (en) * 1972-03-24 1975-07-23 Atomic Energy Authority Uk Flowmeters
DE2541246A1 (en) * 1975-09-12 1977-03-24 Siemens Ag LIQUID FITTING FOR AGGRESSIVE LIQUIDS UNDER PRESSURE, IN PARTICULAR LIQUID QUANTITY MEASURING DEVICES
GB1593680A (en) * 1976-11-02 1981-07-22 Gen Electric Fluidic flowmeters
US4107990A (en) * 1976-11-02 1978-08-22 General Electric Company Fluidic flow and velocity sensor
US4085615A (en) * 1976-11-22 1978-04-25 General Electric Company Linear flowmeter
SE408094B (en) * 1977-09-26 1979-05-14 Fluid Inventor Ab A FLOWING MEDIUM METHODING DEVICE
JPS58189518A (en) * 1982-01-07 1983-11-05 ニユ−ジ−ランド・ガバメント・プロパテイ・コ−ポレ−シヨン Mass flowmeter
GB2172996B (en) * 1984-06-27 1987-07-15 Osaka Gas Co Ltd Fluidic flowmeter

Also Published As

Publication number Publication date
DE3609748A1 (en) 1987-09-24
FR2596149B1 (en) 1992-01-31
FR2596149A1 (en) 1987-09-25
DE3609748C2 (en) 1989-03-02
JPS62277523A (en) 1987-12-02
GB2188151B (en) 1990-05-02
US4827777A (en) 1989-05-09
DK146087D0 (en) 1987-03-20
DK160163C (en) 1991-07-01
GB8706547D0 (en) 1987-04-23
DK146087A (en) 1987-09-23
GB2188151A (en) 1987-09-23

Similar Documents

Publication Publication Date Title
CN107976223B (en) A kind of high-precision leakage amount detector
DK161258B (en) MEASURING MEASUREMENT FOR DETERMINING THE FLOW AMOUNT OF A FLOWING FLUID
USRE38034E1 (en) Valve manifold
EP0758077B1 (en) Vortex flow meter detector and vortex flow meter
EP2759808A1 (en) Ultrasonic flow meter
RU2691285C1 (en) Vortex flowmeter vortex converter
EP0110321B1 (en) Vortex flow meter
DK160163B (en) FLOW MEASURES WHERE A FLUIDUMS OSCILLATIONS IS DETECTED
DK157950B (en) ELECTROMAGNETIC FLOW METER
DK165464B (en) Flow meter of the vortex type
JPS597267A (en) Measuring device for velocity of flow
ES2878335T3 (en) Ultrasonic flowmeter
CN104316123A (en) High-airtightness liquid flowmeter
CN217424458U (en) Gas meter
US4007635A (en) Fluid volume apparatus for measuring a fluid under pressure
JPS61167832A (en) Pressure measuring instrument
US6931939B2 (en) Pressure transmitter
RU187533U1 (en) MASS CORIOLIS FLOW METER FOR CRYOGENIC MEDIA
CN206531541U (en) The connect base of coriolis mass flowmeters
CN208588496U (en) Hydrostatic sensor anti-disturbance device and hydrostatic sensor
CN217542227U (en) Three-way pressure-taking connecting flange
CN108692703B (en) Static level capable of reducing temperature error and implementation method
CN217716503U (en) Be used for two measurement systems
RU2737418C1 (en) Piezoelectric vortex converter
CN221376758U (en) Water meter pipeline structure and ultrasonic water meter

Legal Events

Date Code Title Description
PBP Patent lapsed
PBP Patent lapsed